Search results for "Computer Graphics and Computer-Aided Design"

showing 10 items of 223 documents

Evaluation of prostate segmentation algorithms for MRI: The PROMISE12 challenge

2014

Contains fulltext : 137969.pdf (Publisher’s version ) (Open Access) Prostate MRI image segmentation has been an area of intense research due to the increased use of MRI as a modality for the clinical workup of prostate cancer. Segmentation is useful for various tasks, e.g. to accurately localize prostate boundaries for radiotherapy or to initialize multi-modal registration algorithms. In the past, it has been difficult for research groups to evaluate prostate segmentation algorithms on multi-center, multi-vendor and multi-protocol data. Especially because we are dealing with MR images, image appearance, resolution and the presence of artifacts are affected by differences in scanners and/or …

MaleScannerObserver (quantum physics)Computer scienceHealth InformaticsSensitivity and SpecificityArticleProstate cancerSegmentationImaging Three-DimensionalRobustness (computer science)Image Interpretation Computer-AssistedmedicineHumansRadiology Nuclear Medicine and imagingSegmentationChallengeProtocol (science)Modality (human–computer interaction)Radiological and Ultrasound TechnologyProstateProstatic NeoplasmsReproducibility of ResultsReference Standardsmedicine.diseaseImage EnhancementComputer Graphics and Computer-Aided DesignMagnetic Resonance ImagingActive appearance modelUrological cancers Radboud Institute for Health Sciences [Radboudumc 15]Computer Vision and Pattern RecognitionArtifactsAlgorithmAlgorithmsRare cancers Radboud Institute for Health Sciences [Radboudumc 9]MRI
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A Theoretical Approach to the Shift Mechanics of Rubber Belt Variators

2008

This paper proposes a theoretical description of the mechanical behavior of rubber belt variators during the speed ratio shift. Comparing with the steady operation, the mass conservation of the belt is completely reformulated considering an elementary dihedral control volume between two planes through the pulley axis and balancing the inside mass variation with the total mass flux through the control surface. On the other hand, the belt equilibrium conditions are similar to the steady case, as the inertia forces due to the shifting motion are negligible with respect to the other forces. Assuming a one-dimensional belt model, it is shown that adhesive regions may appear inside the arc of con…

Mass fluxConservation lawEngineeringbusiness.product_categorybusiness.industryMechanical Engineeringmedia_common.quotation_subjectBelt frictionMechanicsBelt driveInertiaComputer Graphics and Computer-Aided DesignControl volumeComputer Science ApplicationsPulleyMechanics of MaterialsbusinessConservation of massmedia_common
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The development of nature-inspired gripping system of a flat CFRP strip for stress-ribbon structural layout

2021

Abstract The elegant stress-ribbon systems are efficient in pedestrian bridges and long-span roofs. Numerous studies defined corrosion of the steel ribbons as the main drawback of these structures. Unidirectional carbon fiber-reinforced polymer (CFRP) is a promising alternative to steel because of lightweight, high strength, and excellent corrosion and fatigue resistance. However, the application of CFRP materials faced severe problems due to the construction of the anchorage joints, which must resist tremendous axial forces acting in the stress-ribbons. Conventional techniques, suitable for the typical design of the strips made from anisotropic material such as steel, are not useful for СF…

Materials sciencebusiness.industry0211 other engineering and technologiesComputational Mechanics02 engineering and technologyStructural engineering021001 nanoscience & nanotechnologyComputer Graphics and Computer-Aided DesignHuman-Computer InteractionStress (mechanics)Computational MathematicsModeling and Simulation021105 building & constructionRibbonDevelopment (differential geometry)Nature inspired0210 nano-technologybusinessEngineering (miscellaneous)Journal of Computational Design and Engineering
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Numerical Procedure For Residual Stresses Prediction In Friction Stir Welding

2011

The prediction of residual stresses is a relevant and, under many points of view, still open issue for a proper welding process design. In the present paper a 3D FE model, with general validity for different joint configurations, was used to simulate the Friction Stir Welding (FSW) process of butt joints through a single block approach. The model is able to predict the residual stresses by considering thermal actions only, thanks to a new time efficient approach. A good agreement between calculated and experimentally measured data was found; the effectiveness of the presented numerical procedure was evaluated by comparing the calculation times of the proposed method with the ones of already…

Materials sciencebusiness.industryFriction stirweldingresidual stressesFEMApplied MathematicsMetallurgyGeneral EngineeringProcess (computing)Structural engineeringComputer Graphics and Computer-Aided DesignFinite element methodResidual stressThermalButt jointFriction stir weldingbusinessJoint (geology)Settore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneAnalysisBlock (data storage)
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Salkowski curves revisited: A family of curves with constant curvature and non-constant torsion

2009

In the paper [Salkowski, E., 1909. Zur Transformation von Raumkurven, Mathematische Annalen 66 (4), 517-557] published one century ago, a family of curves with constant curvature but non-constant torsion was defined. We characterize them as space curves with constant curvature and whose normal vector makes a constant angle with a fixed line. The relation between these curves and rational curves with double Pythagorean hodograph is studied. A method to construct closed curves, including knotted curves, of constant curvature and continuous torsion using pieces of Salkowski curves is outlined.

Mathematical analysisAerospace EngineeringDifferential geometry of curvesCurvatureComputer Graphics and Computer-Aided DesignConstant curvatureParametric surfaceModeling and SimulationFundamental theorem of curvesTorsion of a curveAutomotive EngineeringFamily of curvesConstant (mathematics)MathematicsComputer Aided Geometric Design
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Explicit polynomial solutions of fourth order linear elliptic Partial Differential Equations for boundary based smooth surface generation

2011

We present an explicit polynomial solution method for surface generation. In this case the surface in question is characterized by some boundary configuration whereby the resulting surface conforms to a fourth order linear elliptic Partial Differential Equation, the Euler–Lagrange equation of a quadratic functional defined by a norm. In particular, the paper deals with surfaces generated as explicit Bézier polynomial solutions for the chosen Partial Differential Equation. To present the explicit solution methodologies adopted here we divide the Partial Differential Equations into two groups namely the orthogonal and the non-orthogonal cases. In order to demonstrate our methodology we discus…

Mathematical analysisFirst-order partial differential equationExplicit and implicit methodsAerospace EngineeringPartial differential equationExplicit polynomial solutionExponential integratorComputer Graphics and Computer-Aided DesignParabolic partial differential equationSurface generationPDE surfaceLinear differential equationElliptic partial differential equationModeling and SimulationAutomotive EngineeringSymbol of a differential operatorMathematicsComputer Aided Geometric Design
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Reliability-based design optimization of trusses under dynamic shakedown constraints

2019

A reliability-based design optimization problem under dynamic shakedown constraints for elastic perfectly plastic truss structures subjected to stochastic wind actions is presented. The simultaneous presence of quasi-static (cyclic) thermal loads is also considered. As usual in the shakedown theory, the quasi-statical loads will be defined as variable within a deterministic domain, while the dynamic problem will be treated considering an extended Ceradini-Gavarini approach. Some sources of uncertainties are introduced in the structural system and in the load definition. The reliability-optimization problem is formulated as the minimization of the volume of the structure subjected to determi…

Mathematical optimizationControl and OptimizationOptimization problemComputer scienceMonte Carlo methodStructural system0211 other engineering and technologiesTruss02 engineering and technology0203 mechanical engineeringDynamic problemReliability-based designDynamic shakedownReliability (statistics)021106 design practice & managementElastic plastic trusseProbabilistic logicComputer Science Applications1707 Computer Vision and Pattern RecognitionComputer Graphics and Computer-Aided DesignComputer Science ApplicationsShakedown020303 mechanical engineering & transportsControl and Systems EngineeringSettore ICAR/08 - Scienza Delle CostruzioniSoftwareStochastic wind loadStructural and Multidisciplinary Optimization
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Shape optimization of elasto-plastic bodies under plane strains: Sensitivity analysis and numerical implementation

1992

Optimal shape design problems for an elastic body made from physically nonlinear material are presented. Sensitivity analysis is done by differentiating the discrete equations of equilibrium. Numerical examples are included.

Mathematical optimizationControl and OptimizationPlane (geometry)Structural mechanicsMathematical analysisGeneral EngineeringOptimal controlComputer Graphics and Computer-Aided DesignFinite element methodComputer Science ApplicationsNonlinear systemControl and Systems EngineeringShape optimizationSensitivity (control systems)SoftwareMathematicsPlane stressStructural Optimization
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Sensitivity analysis for optimal shape design problems

1989

Various methods for performing the sensitivity analysis in solving optimal shape design problems are outlined. The methods are illustrated in detail in the finite setting of a unilateral boundary value problem of the Dirichlet-Signorini type. The methods are compared in several numerical examples.

Mathematical optimizationControl and OptimizationShape designControl and Systems EngineeringGeneral EngineeringBoundary value problemSensitivity (control systems)Type (model theory)Engineering design processComputer Graphics and Computer-Aided DesignSoftwareComputer Science ApplicationsMathematicsStructural Optimization
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Sensitivity analysis for discretized unilateral plane elasticity problem

1992

Abstract Numerical realization of optimal shape design problems requires gradient information which is used in minimization procedures. There are several possibilities for obtaining this information. Here we present a method, based on the use of the material derivative approach, applied to the finite element discretization of the problem. The advantage of this approach is that is gives the exact values of gradient and it can be very easily implemented on computers. We apply this method in the case of contact problems, where the situation is more involved compared with the case of elasticity problems with classical boundary conditions. We concentrate on a special choice of the cost functiona…

Mathematical optimizationDiscretizationApplied MathematicsGeneral EngineeringUnilateral contactMaterial derivativeComputer Graphics and Computer-Aided DesignPotential energyFinite element methodMinificationBoundary value problemElasticity (economics)AnalysisMathematicsFinite Elements in Analysis and Design
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